Process Control: Concepts Dynamics And ApplicationsThis book is a comprehensive introduction to the vast and important field of control systems. The text introduces the theory of automatic control and its applications to the chemical process industries with emphasis on topics that are of use to the process control engineers and specialists. It also covers the advanced control strategies and its practical implementation with an excellent balance of theoretical concepts and engineering practice. |
Contents
CAPC01pdf | 2 |
CAPC01bpdf | 53 |
CAPC02pdf | 100 |
CAPC03pdf | 181 |
CAPC04pdf | 266 |
CAPC05pdf | 327 |
CAPC06pdf | 402 |
CAPC07pdf | 486 |
CAPC09pdf | 558 |
CAPC10pdf | 606 |
CAPC11pdf | 623 |
CAPC12pdf | 644 |
| 709 | |
Ans Quespdf | 713 |
| 721 | |
CAPC08pdf | 516 |
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Common terms and phrases
actuator Advanced Process Control analog batch process behaviour block diagram Bode plot calculated characteristic equation closed-loop coefficient components computer-aided process control constant control action control algorithm control loop Control Strategies control valve controlled variable controller output defined deviation devices differential equations distributed control system disturbance dynamic error example feedback control system feedforward field filter first first-order flow rate fluid frequency response furnace gain implemented input integral interface Laplace transform linear liquid manipulated variable measured method nonlinear Nyquist plot open-loop operating system optimization parameters performance PID controller plant pressure process control applications Process Control Systems process variable programmable logic controllers proportional controller reactor real-time root-locus roots second-order sensor set-point shown in Figure signal simulation SIMULINK specific stability steady-state steam tank techniques temperature control transfer function transmission tuning voltage z-transform zero